Comparative transcriptome analysis of low- and high-latitude populations of Charybdis japonica under temperature stress

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-04 DOI:10.3389/fmars.2024.1491685
Shaolei Sun, Zhiqi He, Feijun Zhang, Zhiqiang Han
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Abstract

Global climate change has caused rapid temperature changes in marine environments. Understanding how marine organisms respond to temperature changes can help predict their richness of future biodiversity. In this study, we examined the gene expression levels and the difference in the pathways that are responsive to acute temperature stress in low- and high-latitude populations of the shore swimming crab, Charybdis japonica. The two populations of C. japonica were exposed to low- and high-temperature stresses (15°C and 28°C) and used for transcriptome sequencing. Genetic regulatory ability changes were compared to determine the diverse response of the two crab populations to temperature change. The gene expression levels and functional enrichment analysis showed that the low-latitude crab regulated more genes (938) that were mainly enriched in DNA replication and metabolic pathways, whereas the high-latitude crab regulated less genes (309) that were mainly enriched in genetic information processing at low-temperature stress. Furthermore, the low-latitude crab regulated less genes (33) that were mainly enriched in genetic information processing, whereas the high-latitude crab regulated more genes (280) that were mainly enriched in signal transduction and cellular process at high-temperature stress. These results implied that the low-latitude population was more resilient to high-temperature stress, while the high-latitude population was more resilient to low-temperature stress. This study enhances our understanding of how different geographic C. japonica populations respond to varying temperature environments in their living zone, which could be helpful for predicting future biodiversity trends of intertidal crustaceans under global climate change.
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温度胁迫下低纬度和高纬度鲎种群的转录组比较分析
全球气候变化导致海洋环境的温度急剧变化。了解海洋生物如何应对温度变化有助于预测其未来生物多样性的丰富程度。在这项研究中,我们考察了低纬度和高纬度的滨游蟹(Charybdis japonica)种群对急性温度胁迫的基因表达水平和响应途径的差异。两个种群分别暴露于低温和高温胁迫(15°C 和 28°C),并进行转录组测序。比较遗传调控能力的变化,以确定两个蟹种群对温度变化的不同反应。基因表达水平和功能富集分析表明,在低温胁迫下,低纬度蟹调控了较多的基因(938个),这些基因主要富集在DNA复制和代谢途径中,而高纬度蟹调控了较少的基因(309个),这些基因主要富集在遗传信息处理中。此外,在高温胁迫下,低纬度蟹调节的主要富集于遗传信息处理的基因较少(33 个),而高纬度蟹调节的主要富集于信号转导和细胞过程的基因较多(280 个)。这些结果表明,低纬度种群对高温胁迫的适应能力更强,而高纬度种群对低温胁迫的适应能力更强。这项研究加深了我们对不同地理种群如何应对其生活区不同温度环境的理解,有助于预测全球气候变化下潮间带甲壳动物未来的生物多样性趋势。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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